Inpp5d cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Inpp5d
Entrez Gene ID	103738235
Full Name	inositol polyphosphate-5-phosphatase D
Gene Type	protein-coding
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008838107.1	XP_008836329.1	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 1
XM_008838107.2	XP_008836329.1	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 1

Pathways from BioSystems
Gene Ontology

The following Inpp5d gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Inpp5d cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
ONa21341	XM_008838107.2 Latest version!	Nannospalax galili inositol polyphosphate-5-phosphatase D (Inpp5d), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
View Old Accession Versions >>
ONa21341	XM_008838107.1	Nannospalax galili inositol polyphosphate-5-phosphatase D (Inpp5d), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
Hide Old Accession Versions >>

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

Inpp5d ( XM_008838107.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008836329.1 Nannospalax galili inositol polyphosphate-5-phosphatase D (Inpp5d), mRNA.

Price & Availability↑

CloneID	ONa21341
Clone ID Related Accession (Same CDS sequence)	XM_008838107.1 , XM_008838107.2
Accession Version	XM_008838107.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3582bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-08-10
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008342297.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCTGCCA TGGTCCCCGG CTGGAACCAT GGCAACATCA CCCGCTCCAA GGCAGAGGAG 
CTGCTCTCTA GGGCGGGCAA GGACGGGAGC TTCCTTGTGC GTGCCAGCGA GTCCATTCCC 
CGGGCCTATG CGCTCTGCGT GCTGTTCCGG AATTGCGTTT ATACGTACAG AATCCTGCCC 
AATGAAGATG ATAAATTTAC TGTTCAGGCA TCTGAAGGTG TCCCCATGAG ATTCTTCACC 
AAGCTGGACC AGCTCATCGA GTTTTACAGG AAGGAAAACA TGGGGTTGGT AACCCACCTG 
CAGTACCCGG TGCCGCTGGA GGAGGAGGAC ACGGTTGACG AGGCGGAGGA GGACACTGAG 
AATGTCATGT CTCCACCAGA GCTGCCACCC AGAAACATCC CTGTGTCTGC AGGGCCCTGT 
GAGGCCAAGG ACCTTCTCCT TCAAACAGAG AACCTCAGAG CCCCTGAGGT CAGCCGGCCA 
AGCCTCTCAG AAACACTGTT TCAGCGACTA CAGAGTATGG ACACCAGCGG GCTTCCAGAA 
GAGCATCTGA AAGCCATCCA GGATTATTTG AGCACTCAGC TTGTCCTAGA CGCTGACTTT 
GTGAAGACAG GCTCCAGCAA CCTTCCTCAC CTGAAGAAGC TGACCTCACT GCTCTGCAGG 
GAGCTCCATG GTGAAGTAGT CCGGACCCTC CTGTCCCTGG AGTCTCTGCA GAGGTTGTTT 
GACCAGCAGC TCTCTCCTGG CCTTCGTCCA CGCCCTCAGG TGCCCGGTGA GCCCAATCCC 
ATCAACATGG TAGCCAAGCT CAGCCAACTG ACAAGTCTAC TGTCTTCCAT TGAAGATAAG 
GTCAAAGCCT TGCTGCATGA AGGCTCCGAG TCTCCCCACC GGCGTTCCCT CATCCCCCCT 
GTCACCTTTG AGGTGAAGTC AGAATCCCTC GGGATTCCTC AGAAAATGCA GCTCAAAGTG 
GATGTTGAAT CTGGGAAACT GATCATTAAG AAGTCCAAGG ATGGTTCTGA GGACAAGTTC 
TACAGCCACA AGAAAATCCT GCAGCTCATC AAGTCACAGA AGTTTCTGAA CAAGTTGGTG 
ATTTTGGTGG AGACAGAGAA GGAGAAGATC CTGAGGAAGG AGTATGTGTT TGCTGACTCC 
AAAAAGAGAG AAGGCTTCTG CCAGCTCCTG CAGCAGATGA AGAACAAGCA CTCAGAGCAG 
CCGGAGCCAG ACATGATCAC CATCTTCATT GGCACCTGGA ACATGGGTAA CGCCCCCCCT 
CCCAAGAAGA TCACGTCCTG GTTTCTCTCC AAGGGGCAGG GAAAGACGCG GGATGACTCT 
GCTGACTACA TCCCTCATGA CATCTATGTG ATTGGCACCC AGGAGGACCC CCTGGGAGAG 
AAGGAGTGGT TGGAGATGCT CAGGCACTCT CTACAAGAAG TCACCAGGAT GACCTTTAAA 
ACAGTTGCCA TCCACACTCT CTGGAATATC CGCATCGTTG TATTGGCCAA GCCAGAGCAT 
GAGAACCGGA TCAGCCACAT CTGTACCGAC AATGTGAAGA CAGGCATCGC CAACACCCTG 
GGGAACAAGG GAGCCGTGGG GGTGTCATTC ATGTTCAACG GAACTTCCTT GGGGTTTGTT 
AACAGCCACT TAACTTCTGG AAGTGAAAAA AAGCTCAGGC GAAACCAAAA CTACATGAAC 
ATCCTGAGGT TCCTGGCCCT GGGAGACAAG AAGCTGAGCC CCTTTAACAT TACTCACCGC 
TTTACCCACC TCTTCTGGCT TGGAGATCTC AACTACCGTG TGGAGCTGCC CGCCTGGGAG 
GCAGAGGCCA TCATCCAGAA GATCAAGCAG CAGCAGTACG TGGATCTGCT GGCCCACGAC 
CAGCTGCTCA TGGAGAGGAA GGAGCAGAAG GTCTTCCTGC ACTTTGAGGA GGAGGAGATC 
ACCTTCGCAC CCACCTACCG ATTCGAAAGA CTGACTAGGG ACAAGTATGC CTACACAAAG 
CAGAAAGCGA CAGGGATGAA GTACAATCTG CCGTCCTGGT GCGACCGTGT CCTCTGGAAG 
TCTTACCCCC TGGTGCACGT GGTGTGTCAG TCCTATGGCA GTACCAGTGA CATCATGACA 
AGTGACCACA GCCCTGTCTT TGCCACATTT GAAGCAGGAG TCACGTCACA GTTTGTCTCC 
AAGAACGGCC CCGGCACTGT GGACAGCCAA GGGCAGATCG AGTTCCTTGC ATGCTACGCC 
ACACTCAAGA CCAAGTCTCA AACCAAGTTC TACCTGGAGT TCCACTCAAG CTGCTTAGAG 
AGTTTTGTCA AGAGTCAAGA AGGAGAAAAT GAAGAAGGAC GGGAAGGAGA GCTGGTGGTG 
AGGTTTGGCG AGACTCTTCC CAAGCTGAAG CCCATTATCT CTGACCCTGA GTACCTCCTG 
GACCAGCACA TCTTGATCAG CATTAAGTCC TCGGACAGTG ATGAATCATA TGGTGAAGGG 
TGCATTGCCC TTCGGCTGGA GGCCACAGAG ACTCAGCTGC CCATCTACAC ACCTCTCACT 
CACCACGGGG AGATGACTGG CCACTTCCAG GGGGAGATTA AGCTGCAGAC TTCCCAGGGC 
AAGAAGAGGG AAAAACTCTA CGACTTTGTG AAGACAGAGC GGGATGAGTC CAGTGGAATG 
AAGTGTATGA AGACCCTCAC CAGCCATGAC CCCATGAGGC AGTGGGAGCC TGCCGGCAGG 
GTCCCTGCTG CCTGTGGTGC CCCCAGTCTC ACAGAGATCA TCAACCCCAA CTACATGGGC 
ATGGGACCCT TCGGACAGCC CCTGCATGGG AAGCCATCCC TGTCCCCAGA CCAGCAGCTC 
ACAACCTGGA GCTATGACCA GCTACCCAAG GACTCCTCCC TGGGGCCTGG GAGAGGAGAG 
GGTCCACTGA CCCCTCCCTC CCAGCCACCT CTGTCTCCAA AGAAGTTCTC GTCCTCCACA 
GCCAACCGAG GTCCCTGCCC CAGGGCCCAG GAGGCAAGAC CTGGTGACCT GGGGAAGAAC 
CCAGCAGAAG CTTTGCTTCA GGAGGACCTC CAGCTGACGA AGCCAGAGAT GTTTGAGAAC 
CCACTGTATG GGTCTGTGAG TTCCTTCCCT AAGCTGGTTC CTAGGAAAGA GCAGGAGTCC 
CCCAAGATGC TGCGGAAGGA GCCCCCACCC TGCCCAGACC TAGGAATCTC ATCACCCAGT 
GTCCTGCTCC CCAAAGCCCC GGAAGCCGAA AGCAGCAAGG GGACGGGCAA GCAGGCCCCC 
ATGCCTGTAA TTGGCCCCAC ACCCCGGGTC CGCTCCTTCA CCTGCTCCTC CCCTGCTGAG 
GGCAGGACGA CCAGTGGGGA CAAGAGTCAA GGGAAGCCCA AGACCTCGGC CAGTGCCCAA 
GCCCCAGTGC CAGCCAAGAG GCCCATCAAG CCTTCCAGGT CAGAAATGAG CCAGCAGACG 
ACACCCACAC CAGCACCACG ACCACCCCTG CCAGTCAAGA GCCCAGCGGT CCTACAGCTG 
CAGCACTCCA AAGGCCGAGA CTACCGGGAT AACACAGAGC TCCCCCACCA CAGCAAGCAC 
CGTCCGGAGG AAAGCCTGCT CAGCAGGACA GCCATGCAGT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_008836329.1
CDS	174..3755
Translation	MPAMVPGWNHGNITRSKAEELLSRAGKDGSFLVRASESIPRAYALCVLFRNCVYTYRILPNEDDKFTVQASEGVPMRFFTKLDQLIEFYRKENMGLVTHLQYPVPLEEEDTVDEAEEDTENVMSPPELPPRNIPVSAGPCEAKDLLLQTENLRAPEVSRPSLSETLFQRLQSMDTSGLPEEHLKAIQDYLSTQLVLDADFVKTGSSNLPHLKKLTSLLCRELHGEVVRTLLSLESLQRLFDQQLSPGLRPRPQVPGEPNPINMVAKLSQLTSLLSSIEDKVKALLHEGSESPHRRSLIPPVTFEVKSESLGIPQKMQLKVDVESGKLIIKKSKDGSEDKFYSHKKILQLIKSQKFLNKLVILVETEKEKILRKEYVFADSKKREGFCQLLQQMKNKHSEQPEPDMITIFIGTWNMGNAPPPKKITSWFLSKGQGKTRDDSADYIPHDIYVIGTQEDPLGEKEWLEMLRHSLQEVTRMTFKTVAIHTLWNIRIVVLAKPEHENRISHICTDNVKTGIANTLGNKGAVGVSFMFNGTSLGFVNSHLTSGSEKKLRRNQNYMNILRFLALGDKKLSPFNITHRFTHLFWLGDLNYRVELPAWEAEAIIQKIKQQQYVDLLAHDQLLMERKEQKVFLHFEEEEITFAPTYRFERLTRDKYAYTKQKATGMKYNLPSWCDRVLWKSYPLVHVVCQSYGSTSDIMTSDHSPVFATFEAGVTSQFVSKNGPGTVDSQGQIEFLACYATLKTKSQTKFYLEFHSSCLESFVKSQEGENEEGREGELVVRFGETLPKLKPIISDPEYLLDQHILISIKSSDSDESYGEGCIALRLEATETQLPIYTPLTHHGEMTGHFQGEIKLQTSQGKKREKLYDFVKTERDESSGMKCMKTLTSHDPMRQWEPAGRVPAACGAPSLTEIINPNYMGMGPFGQPLHGKPSLSPDQQLTTWSYDQLPKDSSLGPGRGEGPLTPPSQPPLSPKKFSSSTANRGPCPRAQEARPGDLGKNPAEALLQEDLQLTKPEMFENPLYGSVSSFPKLVPRKEQESPKMLRKEPPPCPDLGISSPSVLLPKAPEAESSKGTGKQAPMPVIGPTPRVRSFTCSSPAEGRTTSGDKSQGKPKTSASAQAPVPAKRPIKPSRSEMSQQTTPTPAPRPPLPVKSPAVLQLQHSKGRDYRDNTELPHHSKHRPEESLLSRTAMQ

Target ORF information:

RefSeq Version	XM_008838107.1
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili inositol polyphosphate-5-phosphatase D (Inpp5d), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_008838107.1

ORF Insert Sequence:

ATGCCTGCCA TGGTCCCCGG CTGGAACCAT GGCAACATCA CCCGCTCCAA GGCAGAGGAG 
CTGCTCTCTA GGGCGGGCAA GGACGGGAGC TTCCTTGTGC GTGCCAGCGA GTCCATTCCC 
CGGGCCTATG CGCTCTGCGT GCTGTTCCGG AATTGCGTTT ATACGTACAG AATCCTGCCC 
AATGAAGATG ATAAATTTAC TGTTCAGGCA TCTGAAGGTG TCCCCATGAG ATTCTTCACC 
AAGCTGGACC AGCTCATCGA GTTTTACAGG AAGGAAAACA TGGGGTTGGT AACCCACCTG 
CAGTACCCGG TGCCGCTGGA GGAGGAGGAC ACGGTTGACG AGGCGGAGGA GGACACTGAG 
AATGTCATGT CTCCACCAGA GCTGCCACCC AGAAACATCC CTGTGTCTGC AGGGCCCTGT 
GAGGCCAAGG ACCTTCTCCT TCAAACAGAG AACCTCAGAG CCCCTGAGGT CAGCCGGCCA 
AGCCTCTCAG AAACACTGTT TCAGCGACTA CAGAGTATGG ACACCAGCGG GCTTCCAGAA 
GAGCATCTGA AAGCCATCCA GGATTATTTG AGCACTCAGC TTGTCCTAGA CGCTGACTTT 
GTGAAGACAG GCTCCAGCAA CCTTCCTCAC CTGAAGAAGC TGACCTCACT GCTCTGCAGG 
GAGCTCCATG GTGAAGTAGT CCGGACCCTC CTGTCCCTGG AGTCTCTGCA GAGGTTGTTT 
GACCAGCAGC TCTCTCCTGG CCTTCGTCCA CGCCCTCAGG TGCCCGGTGA GCCCAATCCC 
ATCAACATGG TAGCCAAGCT CAGCCAACTG ACAAGTCTAC TGTCTTCCAT TGAAGATAAG 
GTCAAAGCCT TGCTGCATGA AGGCTCCGAG TCTCCCCACC GGCGTTCCCT CATCCCCCCT 
GTCACCTTTG AGGTGAAGTC AGAATCCCTC GGGATTCCTC AGAAAATGCA GCTCAAAGTG 
GATGTTGAAT CTGGGAAACT GATCATTAAG AAGTCCAAGG ATGGTTCTGA GGACAAGTTC 
TACAGCCACA AGAAAATCCT GCAGCTCATC AAGTCACAGA AGTTTCTGAA CAAGTTGGTG 
ATTTTGGTGG AGACAGAGAA GGAGAAGATC CTGAGGAAGG AGTATGTGTT TGCTGACTCC 
AAAAAGAGAG AAGGCTTCTG CCAGCTCCTG CAGCAGATGA AGAACAAGCA CTCAGAGCAG 
CCGGAGCCAG ACATGATCAC CATCTTCATT GGCACCTGGA ACATGGGTAA CGCCCCCCCT 
CCCAAGAAGA TCACGTCCTG GTTTCTCTCC AAGGGGCAGG GAAAGACGCG GGATGACTCT 
GCTGACTACA TCCCTCATGA CATCTATGTG ATTGGCACCC AGGAGGACCC CCTGGGAGAG 
AAGGAGTGGT TGGAGATGCT CAGGCACTCT CTACAAGAAG TCACCAGGAT GACCTTTAAA 
ACAGTTGCCA TCCACACTCT CTGGAATATC CGCATCGTTG TATTGGCCAA GCCAGAGCAT 
GAGAACCGGA TCAGCCACAT CTGTACCGAC AATGTGAAGA CAGGCATCGC CAACACCCTG 
GGGAACAAGG GAGCCGTGGG GGTGTCATTC ATGTTCAACG GAACTTCCTT GGGGTTTGTT 
AACAGCCACT TAACTTCTGG AAGTGAAAAA AAGCTCAGGC GAAACCAAAA CTACATGAAC 
ATCCTGAGGT TCCTGGCCCT GGGAGACAAG AAGCTGAGCC CCTTTAACAT TACTCACCGC 
TTTACCCACC TCTTCTGGCT TGGAGATCTC AACTACCGTG TGGAGCTGCC CGCCTGGGAG 
GCAGAGGCCA TCATCCAGAA GATCAAGCAG CAGCAGTACG TGGATCTGCT GGCCCACGAC 
CAGCTGCTCA TGGAGAGGAA GGAGCAGAAG GTCTTCCTGC ACTTTGAGGA GGAGGAGATC 
ACCTTCGCAC CCACCTACCG ATTCGAAAGA CTGACTAGGG ACAAGTATGC CTACACAAAG 
CAGAAAGCGA CAGGGATGAA GTACAATCTG CCGTCCTGGT GCGACCGTGT CCTCTGGAAG 
TCTTACCCCC TGGTGCACGT GGTGTGTCAG TCCTATGGCA GTACCAGTGA CATCATGACA 
AGTGACCACA GCCCTGTCTT TGCCACATTT GAAGCAGGAG TCACGTCACA GTTTGTCTCC 
AAGAACGGCC CCGGCACTGT GGACAGCCAA GGGCAGATCG AGTTCCTTGC ATGCTACGCC 
ACACTCAAGA CCAAGTCTCA AACCAAGTTC TACCTGGAGT TCCACTCAAG CTGCTTAGAG 
AGTTTTGTCA AGAGTCAAGA AGGAGAAAAT GAAGAAGGAC GGGAAGGAGA GCTGGTGGTG 
AGGTTTGGCG AGACTCTTCC CAAGCTGAAG CCCATTATCT CTGACCCTGA GTACCTCCTG 
GACCAGCACA TCTTGATCAG CATTAAGTCC TCGGACAGTG ATGAATCATA TGGTGAAGGG 
TGCATTGCCC TTCGGCTGGA GGCCACAGAG ACTCAGCTGC CCATCTACAC ACCTCTCACT 
CACCACGGGG AGATGACTGG CCACTTCCAG GGGGAGATTA AGCTGCAGAC TTCCCAGGGC 
AAGAAGAGGG AAAAACTCTA CGACTTTGTG AAGACAGAGC GGGATGAGTC CAGTGGAATG 
AAGTGTATGA AGACCCTCAC CAGCCATGAC CCCATGAGGC AGTGGGAGCC TGCCGGCAGG 
GTCCCTGCTG CCTGTGGTGC CCCCAGTCTC ACAGAGATCA TCAACCCCAA CTACATGGGC 
ATGGGACCCT TCGGACAGCC CCTGCATGGG AAGCCATCCC TGTCCCCAGA CCAGCAGCTC 
ACAACCTGGA GCTATGACCA GCTACCCAAG GACTCCTCCC TGGGGCCTGG GAGAGGAGAG 
GGTCCACTGA CCCCTCCCTC CCAGCCACCT CTGTCTCCAA AGAAGTTCTC GTCCTCCACA 
GCCAACCGAG GTCCCTGCCC CAGGGCCCAG GAGGCAAGAC CTGGTGACCT GGGGAAGAAC 
CCAGCAGAAG CTTTGCTTCA GGAGGACCTC CAGCTGACGA AGCCAGAGAT GTTTGAGAAC 
CCACTGTATG GGTCTGTGAG TTCCTTCCCT AAGCTGGTTC CTAGGAAAGA GCAGGAGTCC 
CCCAAGATGC TGCGGAAGGA GCCCCCACCC TGCCCAGACC TAGGAATCTC ATCACCCAGT 
GTCCTGCTCC CCAAAGCCCC GGAAGCCGAA AGCAGCAAGG GGACGGGCAA GCAGGCCCCC 
ATGCCTGTAA TTGGCCCCAC ACCCCGGGTC CGCTCCTTCA CCTGCTCCTC CCCTGCTGAG 
GGCAGGACGA CCAGTGGGGA CAAGAGTCAA GGGAAGCCCA AGACCTCGGC CAGTGCCCAA 
GCCCCAGTGC CAGCCAAGAG GCCCATCAAG CCTTCCAGGT CAGAAATGAG CCAGCAGACG 
ACACCCACAC CAGCACCACG ACCACCCCTG CCAGTCAAGA GCCCAGCGGT CCTACAGCTG 
CAGCACTCCA AAGGCCGAGA CTACCGGGAT AACACAGAGC TCCCCCACCA CAGCAAGCAC 
CGTCCGGAGG AAAGCCTGCT CAGCAGGACA GCCATGCAGT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Inpp5d ( XM_008838107.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008836329.1 Nannospalax galili inositol polyphosphate-5-phosphatase D (Inpp5d), mRNA.

Price & Availability↑

CloneID	ONa21341
Clone ID Related Accession (Same CDS sequence)	XM_008838107.1 , XM_008838107.2
Accession Version	XM_008838107.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3582bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-06-23
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008342297.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008838107.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCTGCCA TGGTCCCCGG CTGGAACCAT GGCAACATCA CCCGCTCCAA GGCAGAGGAG 
CTGCTCTCTA GGGCGGGCAA GGACGGGAGC TTCCTTGTGC GTGCCAGCGA GTCCATTCCC 
CGGGCCTATG CGCTCTGCGT GCTGTTCCGG AATTGCGTTT ATACGTACAG AATCCTGCCC 
AATGAAGATG ATAAATTTAC TGTTCAGGCA TCTGAAGGTG TCCCCATGAG ATTCTTCACC 
AAGCTGGACC AGCTCATCGA GTTTTACAGG AAGGAAAACA TGGGGTTGGT AACCCACCTG 
CAGTACCCGG TGCCGCTGGA GGAGGAGGAC ACGGTTGACG AGGCGGAGGA GGACACTGAG 
AATGTCATGT CTCCACCAGA GCTGCCACCC AGAAACATCC CTGTGTCTGC AGGGCCCTGT 
GAGGCCAAGG ACCTTCTCCT TCAAACAGAG AACCTCAGAG CCCCTGAGGT CAGCCGGCCA 
AGCCTCTCAG AAACACTGTT TCAGCGACTA CAGAGTATGG ACACCAGCGG GCTTCCAGAA 
GAGCATCTGA AAGCCATCCA GGATTATTTG AGCACTCAGC TTGTCCTAGA CGCTGACTTT 
GTGAAGACAG GCTCCAGCAA CCTTCCTCAC CTGAAGAAGC TGACCTCACT GCTCTGCAGG 
GAGCTCCATG GTGAAGTAGT CCGGACCCTC CTGTCCCTGG AGTCTCTGCA GAGGTTGTTT 
GACCAGCAGC TCTCTCCTGG CCTTCGTCCA CGCCCTCAGG TGCCCGGTGA GCCCAATCCC 
ATCAACATGG TAGCCAAGCT CAGCCAACTG ACAAGTCTAC TGTCTTCCAT TGAAGATAAG 
GTCAAAGCCT TGCTGCATGA AGGCTCCGAG TCTCCCCACC GGCGTTCCCT CATCCCCCCT 
GTCACCTTTG AGGTGAAGTC AGAATCCCTC GGGATTCCTC AGAAAATGCA GCTCAAAGTG 
GATGTTGAAT CTGGGAAACT GATCATTAAG AAGTCCAAGG ATGGTTCTGA GGACAAGTTC 
TACAGCCACA AGAAAATCCT GCAGCTCATC AAGTCACAGA AGTTTCTGAA CAAGTTGGTG 
ATTTTGGTGG AGACAGAGAA GGAGAAGATC CTGAGGAAGG AGTATGTGTT TGCTGACTCC 
AAAAAGAGAG AAGGCTTCTG CCAGCTCCTG CAGCAGATGA AGAACAAGCA CTCAGAGCAG 
CCGGAGCCAG ACATGATCAC CATCTTCATT GGCACCTGGA ACATGGGTAA CGCCCCCCCT 
CCCAAGAAGA TCACGTCCTG GTTTCTCTCC AAGGGGCAGG GAAAGACGCG GGATGACTCT 
GCTGACTACA TCCCTCATGA CATCTATGTG ATTGGCACCC AGGAGGACCC CCTGGGAGAG 
AAGGAGTGGT TGGAGATGCT CAGGCACTCT CTACAAGAAG TCACCAGGAT GACCTTTAAA 
ACAGTTGCCA TCCACACTCT CTGGAATATC CGCATCGTTG TATTGGCCAA GCCAGAGCAT 
GAGAACCGGA TCAGCCACAT CTGTACCGAC AATGTGAAGA CAGGCATCGC CAACACCCTG 
GGGAACAAGG GAGCCGTGGG GGTGTCATTC ATGTTCAACG GAACTTCCTT GGGGTTTGTT 
AACAGCCACT TAACTTCTGG AAGTGAAAAA AAGCTCAGGC GAAACCAAAA CTACATGAAC 
ATCCTGAGGT TCCTGGCCCT GGGAGACAAG AAGCTGAGCC CCTTTAACAT TACTCACCGC 
TTTACCCACC TCTTCTGGCT TGGAGATCTC AACTACCGTG TGGAGCTGCC CGCCTGGGAG 
GCAGAGGCCA TCATCCAGAA GATCAAGCAG CAGCAGTACG TGGATCTGCT GGCCCACGAC 
CAGCTGCTCA TGGAGAGGAA GGAGCAGAAG GTCTTCCTGC ACTTTGAGGA GGAGGAGATC 
ACCTTCGCAC CCACCTACCG ATTCGAAAGA CTGACTAGGG ACAAGTATGC CTACACAAAG 
CAGAAAGCGA CAGGGATGAA GTACAATCTG CCGTCCTGGT GCGACCGTGT CCTCTGGAAG 
TCTTACCCCC TGGTGCACGT GGTGTGTCAG TCCTATGGCA GTACCAGTGA CATCATGACA 
AGTGACCACA GCCCTGTCTT TGCCACATTT GAAGCAGGAG TCACGTCACA GTTTGTCTCC 
AAGAACGGCC CCGGCACTGT GGACAGCCAA GGGCAGATCG AGTTCCTTGC ATGCTACGCC 
ACACTCAAGA CCAAGTCTCA AACCAAGTTC TACCTGGAGT TCCACTCAAG CTGCTTAGAG 
AGTTTTGTCA AGAGTCAAGA AGGAGAAAAT GAAGAAGGAC GGGAAGGAGA GCTGGTGGTG 
AGGTTTGGCG AGACTCTTCC CAAGCTGAAG CCCATTATCT CTGACCCTGA GTACCTCCTG 
GACCAGCACA TCTTGATCAG CATTAAGTCC TCGGACAGTG ATGAATCATA TGGTGAAGGG 
TGCATTGCCC TTCGGCTGGA GGCCACAGAG ACTCAGCTGC CCATCTACAC ACCTCTCACT 
CACCACGGGG AGATGACTGG CCACTTCCAG GGGGAGATTA AGCTGCAGAC TTCCCAGGGC 
AAGAAGAGGG AAAAACTCTA CGACTTTGTG AAGACAGAGC GGGATGAGTC CAGTGGAATG 
AAGTGTATGA AGACCCTCAC CAGCCATGAC CCCATGAGGC AGTGGGAGCC TGCCGGCAGG 
GTCCCTGCTG CCTGTGGTGC CCCCAGTCTC ACAGAGATCA TCAACCCCAA CTACATGGGC 
ATGGGACCCT TCGGACAGCC CCTGCATGGG AAGCCATCCC TGTCCCCAGA CCAGCAGCTC 
ACAACCTGGA GCTATGACCA GCTACCCAAG GACTCCTCCC TGGGGCCTGG GAGAGGAGAG 
GGTCCACTGA CCCCTCCCTC CCAGCCACCT CTGTCTCCAA AGAAGTTCTC GTCCTCCACA 
GCCAACCGAG GTCCCTGCCC CAGGGCCCAG GAGGCAAGAC CTGGTGACCT GGGGAAGAAC 
CCAGCAGAAG CTTTGCTTCA GGAGGACCTC CAGCTGACGA AGCCAGAGAT GTTTGAGAAC 
CCACTGTATG GGTCTGTGAG TTCCTTCCCT AAGCTGGTTC CTAGGAAAGA GCAGGAGTCC 
CCCAAGATGC TGCGGAAGGA GCCCCCACCC TGCCCAGACC TAGGAATCTC ATCACCCAGT 
GTCCTGCTCC CCAAAGCCCC GGAAGCCGAA AGCAGCAAGG GGACGGGCAA GCAGGCCCCC 
ATGCCTGTAA TTGGCCCCAC ACCCCGGGTC CGCTCCTTCA CCTGCTCCTC CCCTGCTGAG 
GGCAGGACGA CCAGTGGGGA CAAGAGTCAA GGGAAGCCCA AGACCTCGGC CAGTGCCCAA 
GCCCCAGTGC CAGCCAAGAG GCCCATCAAG CCTTCCAGGT CAGAAATGAG CCAGCAGACG 
ACACCCACAC CAGCACCACG ACCACCCCTG CCAGTCAAGA GCCCAGCGGT CCTACAGCTG 
CAGCACTCCA AAGGCCGAGA CTACCGGGAT AACACAGAGC TCCCCCACCA CAGCAAGCAC 
CGTCCGGAGG AAAGCCTGCT CAGCAGGACA GCCATGCAGT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_008836329.1
CDS	174..3755
Translation	MPAMVPGWNHGNITRSKAEELLSRAGKDGSFLVRASESIPRAYALCVLFRNCVYTYRILPNEDDKFTVQASEGVPMRFFTKLDQLIEFYRKENMGLVTHLQYPVPLEEEDTVDEAEEDTENVMSPPELPPRNIPVSAGPCEAKDLLLQTENLRAPEVSRPSLSETLFQRLQSMDTSGLPEEHLKAIQDYLSTQLVLDADFVKTGSSNLPHLKKLTSLLCRELHGEVVRTLLSLESLQRLFDQQLSPGLRPRPQVPGEPNPINMVAKLSQLTSLLSSIEDKVKALLHEGSESPHRRSLIPPVTFEVKSESLGIPQKMQLKVDVESGKLIIKKSKDGSEDKFYSHKKILQLIKSQKFLNKLVILVETEKEKILRKEYVFADSKKREGFCQLLQQMKNKHSEQPEPDMITIFIGTWNMGNAPPPKKITSWFLSKGQGKTRDDSADYIPHDIYVIGTQEDPLGEKEWLEMLRHSLQEVTRMTFKTVAIHTLWNIRIVVLAKPEHENRISHICTDNVKTGIANTLGNKGAVGVSFMFNGTSLGFVNSHLTSGSEKKLRRNQNYMNILRFLALGDKKLSPFNITHRFTHLFWLGDLNYRVELPAWEAEAIIQKIKQQQYVDLLAHDQLLMERKEQKVFLHFEEEEITFAPTYRFERLTRDKYAYTKQKATGMKYNLPSWCDRVLWKSYPLVHVVCQSYGSTSDIMTSDHSPVFATFEAGVTSQFVSKNGPGTVDSQGQIEFLACYATLKTKSQTKFYLEFHSSCLESFVKSQEGENEEGREGELVVRFGETLPKLKPIISDPEYLLDQHILISIKSSDSDESYGEGCIALRLEATETQLPIYTPLTHHGEMTGHFQGEIKLQTSQGKKREKLYDFVKTERDESSGMKCMKTLTSHDPMRQWEPAGRVPAACGAPSLTEIINPNYMGMGPFGQPLHGKPSLSPDQQLTTWSYDQLPKDSSLGPGRGEGPLTPPSQPPLSPKKFSSSTANRGPCPRAQEARPGDLGKNPAEALLQEDLQLTKPEMFENPLYGSVSSFPKLVPRKEQESPKMLRKEPPPCPDLGISSPSVLLPKAPEAESSKGTGKQAPMPVIGPTPRVRSFTCSSPAEGRTTSGDKSQGKPKTSASAQAPVPAKRPIKPSRSEMSQQTTPTPAPRPPLPVKSPAVLQLQHSKGRDYRDNTELPHHSKHRPEESLLSRTAMQ

Target ORF information:

RefSeq Version	XM_008838107.2
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili inositol polyphosphate-5-phosphatase D (Inpp5d), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_008838107.2

ORF Insert Sequence:

ATGCCTGCCA TGGTCCCCGG CTGGAACCAT GGCAACATCA CCCGCTCCAA GGCAGAGGAG 
CTGCTCTCTA GGGCGGGCAA GGACGGGAGC TTCCTTGTGC GTGCCAGCGA GTCCATTCCC 
CGGGCCTATG CGCTCTGCGT GCTGTTCCGG AATTGCGTTT ATACGTACAG AATCCTGCCC 
AATGAAGATG ATAAATTTAC TGTTCAGGCA TCTGAAGGTG TCCCCATGAG ATTCTTCACC 
AAGCTGGACC AGCTCATCGA GTTTTACAGG AAGGAAAACA TGGGGTTGGT AACCCACCTG 
CAGTACCCGG TGCCGCTGGA GGAGGAGGAC ACGGTTGACG AGGCGGAGGA GGACACTGAG 
AATGTCATGT CTCCACCAGA GCTGCCACCC AGAAACATCC CTGTGTCTGC AGGGCCCTGT 
GAGGCCAAGG ACCTTCTCCT TCAAACAGAG AACCTCAGAG CCCCTGAGGT CAGCCGGCCA 
AGCCTCTCAG AAACACTGTT TCAGCGACTA CAGAGTATGG ACACCAGCGG GCTTCCAGAA 
GAGCATCTGA AAGCCATCCA GGATTATTTG AGCACTCAGC TTGTCCTAGA CGCTGACTTT 
GTGAAGACAG GCTCCAGCAA CCTTCCTCAC CTGAAGAAGC TGACCTCACT GCTCTGCAGG 
GAGCTCCATG GTGAAGTAGT CCGGACCCTC CTGTCCCTGG AGTCTCTGCA GAGGTTGTTT 
GACCAGCAGC TCTCTCCTGG CCTTCGTCCA CGCCCTCAGG TGCCCGGTGA GCCCAATCCC 
ATCAACATGG TAGCCAAGCT CAGCCAACTG ACAAGTCTAC TGTCTTCCAT TGAAGATAAG 
GTCAAAGCCT TGCTGCATGA AGGCTCCGAG TCTCCCCACC GGCGTTCCCT CATCCCCCCT 
GTCACCTTTG AGGTGAAGTC AGAATCCCTC GGGATTCCTC AGAAAATGCA GCTCAAAGTG 
GATGTTGAAT CTGGGAAACT GATCATTAAG AAGTCCAAGG ATGGTTCTGA GGACAAGTTC 
TACAGCCACA AGAAAATCCT GCAGCTCATC AAGTCACAGA AGTTTCTGAA CAAGTTGGTG 
ATTTTGGTGG AGACAGAGAA GGAGAAGATC CTGAGGAAGG AGTATGTGTT TGCTGACTCC 
AAAAAGAGAG AAGGCTTCTG CCAGCTCCTG CAGCAGATGA AGAACAAGCA CTCAGAGCAG 
CCGGAGCCAG ACATGATCAC CATCTTCATT GGCACCTGGA ACATGGGTAA CGCCCCCCCT 
CCCAAGAAGA TCACGTCCTG GTTTCTCTCC AAGGGGCAGG GAAAGACGCG GGATGACTCT 
GCTGACTACA TCCCTCATGA CATCTATGTG ATTGGCACCC AGGAGGACCC CCTGGGAGAG 
AAGGAGTGGT TGGAGATGCT CAGGCACTCT CTACAAGAAG TCACCAGGAT GACCTTTAAA 
ACAGTTGCCA TCCACACTCT CTGGAATATC CGCATCGTTG TATTGGCCAA GCCAGAGCAT 
GAGAACCGGA TCAGCCACAT CTGTACCGAC AATGTGAAGA CAGGCATCGC CAACACCCTG 
GGGAACAAGG GAGCCGTGGG GGTGTCATTC ATGTTCAACG GAACTTCCTT GGGGTTTGTT 
AACAGCCACT TAACTTCTGG AAGTGAAAAA AAGCTCAGGC GAAACCAAAA CTACATGAAC 
ATCCTGAGGT TCCTGGCCCT GGGAGACAAG AAGCTGAGCC CCTTTAACAT TACTCACCGC 
TTTACCCACC TCTTCTGGCT TGGAGATCTC AACTACCGTG TGGAGCTGCC CGCCTGGGAG 
GCAGAGGCCA TCATCCAGAA GATCAAGCAG CAGCAGTACG TGGATCTGCT GGCCCACGAC 
CAGCTGCTCA TGGAGAGGAA GGAGCAGAAG GTCTTCCTGC ACTTTGAGGA GGAGGAGATC 
ACCTTCGCAC CCACCTACCG ATTCGAAAGA CTGACTAGGG ACAAGTATGC CTACACAAAG 
CAGAAAGCGA CAGGGATGAA GTACAATCTG CCGTCCTGGT GCGACCGTGT CCTCTGGAAG 
TCTTACCCCC TGGTGCACGT GGTGTGTCAG TCCTATGGCA GTACCAGTGA CATCATGACA 
AGTGACCACA GCCCTGTCTT TGCCACATTT GAAGCAGGAG TCACGTCACA GTTTGTCTCC 
AAGAACGGCC CCGGCACTGT GGACAGCCAA GGGCAGATCG AGTTCCTTGC ATGCTACGCC 
ACACTCAAGA CCAAGTCTCA AACCAAGTTC TACCTGGAGT TCCACTCAAG CTGCTTAGAG 
AGTTTTGTCA AGAGTCAAGA AGGAGAAAAT GAAGAAGGAC GGGAAGGAGA GCTGGTGGTG 
AGGTTTGGCG AGACTCTTCC CAAGCTGAAG CCCATTATCT CTGACCCTGA GTACCTCCTG 
GACCAGCACA TCTTGATCAG CATTAAGTCC TCGGACAGTG ATGAATCATA TGGTGAAGGG 
TGCATTGCCC TTCGGCTGGA GGCCACAGAG ACTCAGCTGC CCATCTACAC ACCTCTCACT 
CACCACGGGG AGATGACTGG CCACTTCCAG GGGGAGATTA AGCTGCAGAC TTCCCAGGGC 
AAGAAGAGGG AAAAACTCTA CGACTTTGTG AAGACAGAGC GGGATGAGTC CAGTGGAATG 
AAGTGTATGA AGACCCTCAC CAGCCATGAC CCCATGAGGC AGTGGGAGCC TGCCGGCAGG 
GTCCCTGCTG CCTGTGGTGC CCCCAGTCTC ACAGAGATCA TCAACCCCAA CTACATGGGC 
ATGGGACCCT TCGGACAGCC CCTGCATGGG AAGCCATCCC TGTCCCCAGA CCAGCAGCTC 
ACAACCTGGA GCTATGACCA GCTACCCAAG GACTCCTCCC TGGGGCCTGG GAGAGGAGAG 
GGTCCACTGA CCCCTCCCTC CCAGCCACCT CTGTCTCCAA AGAAGTTCTC GTCCTCCACA 
GCCAACCGAG GTCCCTGCCC CAGGGCCCAG GAGGCAAGAC CTGGTGACCT GGGGAAGAAC 
CCAGCAGAAG CTTTGCTTCA GGAGGACCTC CAGCTGACGA AGCCAGAGAT GTTTGAGAAC 
CCACTGTATG GGTCTGTGAG TTCCTTCCCT AAGCTGGTTC CTAGGAAAGA GCAGGAGTCC 
CCCAAGATGC TGCGGAAGGA GCCCCCACCC TGCCCAGACC TAGGAATCTC ATCACCCAGT 
GTCCTGCTCC CCAAAGCCCC GGAAGCCGAA AGCAGCAAGG GGACGGGCAA GCAGGCCCCC 
ATGCCTGTAA TTGGCCCCAC ACCCCGGGTC CGCTCCTTCA CCTGCTCCTC CCCTGCTGAG 
GGCAGGACGA CCAGTGGGGA CAAGAGTCAA GGGAAGCCCA AGACCTCGGC CAGTGCCCAA 
GCCCCAGTGC CAGCCAAGAG GCCCATCAAG CCTTCCAGGT CAGAAATGAG CCAGCAGACG 
ACACCCACAC CAGCACCACG ACCACCCCTG CCAGTCAAGA GCCCAGCGGT CCTACAGCTG 
CAGCACTCCA AAGGCCGAGA CTACCGGGAT AACACAGAGC TCCCCCACCA CAGCAAGCAC 
CGTCCGGAGG AAAGCCTGCT CAGCAGGACA GCCATGCAGT GA